Issue 68, 2018, Issue in Progress

Overall reaction mechanism for a full atomic layer deposition cycle of W films on TiN surfaces: first-principles study

Abstract

We investigated the overall ALD reaction mechanism for W deposition on TiN surfaces based on DFT calculation as well as the detailed dissociative reactions of WF6. Our calculated results suggest that the overall reactions of the WF6 on the B-covered TiN surfaces are energetically much more favorable than the one on the TiN surfaces, which means that the high reactivity of WF6 with the B-covered TiN surface is attributed to the presence of B-covered surface made by B2H6 molecules. As a result, an effect of the B2H6 flow serves as a catalyst to decompose WF6 molecules. Two additional reaction processes right after WF6 bond dissociation, such as W substitution and BF3 desorption, were also explored to clearly understand the detailed reactions that can occur by WF6 flow. At the first additional reaction process, W atoms can be substituted into B site and covered on the TiN surfaces due to the stronger bonding nature of W with the TiN surface than B atoms. At the second additional reaction process, remaining atoms, such as B and F, can be easily desorbed as by-product, that is, BF3 because BF3 desorption is an energetically favorable reaction with a low activation energy. Furthermore, we also investigated the effect of H2 post-treatment on W-covered TiN surface in order to remove residual F adatoms, which are known to cause severe problems that extremely degrade the characteristics of memory devices. It was found that both H2 dissociative reaction and HF desorption can occur sufficiently well under somewhat high temperature and H2 ambience, which is confirmed by our DFT results and previously reported experimental results. These results imply that the understanding of the role of gas molecules used for W deposition gives us insight into improving the W ALD process for future memory devices.

Graphical abstract: Overall reaction mechanism for a full atomic layer deposition cycle of W films on TiN surfaces: first-principles study

Supplementary files

Article information

Article type
Paper
Submitted
03 Sep 2018
Accepted
31 Oct 2018
First published
20 Nov 2018
This article is Open Access
Creative Commons BY license

RSC Adv., 2018,8, 39039-39046

Overall reaction mechanism for a full atomic layer deposition cycle of W films on TiN surfaces: first-principles study

H. Park, S. Lee, H. J. Kim, D. Woo, J. M. Lee, E. Yoon and G. Lee, RSC Adv., 2018, 8, 39039 DOI: 10.1039/C8RA07354F

This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided that the correct acknowledgement is given.

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